Interchromatin granules during phytohemagglutinin stimulation of human lymphocytes

Summary We studied the formation of interchromatin granules (IGs) in phytohemagglutinin (PHA)-stimulated lymphocytes. The bismuth staining method was used for the visualization of IGs, and we also applied high-resolution autoradiography after incubating cells in the presence of³H-leucine during different stages of lymphocyte activation. The disaggregation of chromatin and the enlargement of interchromatinic areas in stimulated lymphocytes were found to be accompanied by an increase in the number of IGs, and it was shown that IGs were formed during all of the investigated stages of lymphocyte stimulation.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

Changes in plant chemical defenses and nutritional quality as a function of ontogeny in <Emphasis Type="Italic">Plantago lanceolata</Emphasis> (Plantaginaceae)

Numerous empirical studies have examined ontogenetic trajectories in plant defenses but only a few have explored the potential mechanisms underlying those patterns. Furthermore, most documented ontogenetic trajectories in plant defenses have generally concentrated on aboveground tissues; thus, our knowledge regarding whole plant trends in plant defenses throughout development or potential allocation constraints between growth and defenses is limited. Here, we document changes in plant biomass, nutritional quality and chemical defenses for below- and aboveground tissues across seven age classes of Plantago lanceolata (Plantaginaceae) to evaluate: (1) partial and whole plant ontogenetic trajectories in constitutive chemical defenses and nutritional quality, and (2) the role of resource allocation constraints, namely root:shoot (R:S) ratios, in explaining whole plant investment in chemical defenses over time. Overall investment in iridoid glycosides (IGs) significantly increased, while water and nitrogen concentrations in shoot tissues decreased with plant age. Significant variation in IG content between shoot and root tissues across development was observed: allocation of IGs into root tissues linearly increased from younger to older plants, while non-linear shifts in allocation of IGs during ontogeny were observed for shoot tissues. Finally, R:S ratios only weakly explained overall allocation of resources into defenses, with young stages showing a positive relationship, while older stages showed a negative relationship between R:S ratios and IG concentrations. Ontogenetic trajectories in plant quality and defenses within and among plant tissues can strongly influence insect herbivores’ performance and/or predation risk; thus, they are likely to play a significant role in mediating species interactions.     

Effects of insect herbivory on induced chemical defences and compensation during early plant development in Penstemon virgatus

Background and Aims

The lack of studies assessing the simultaneous expression of tolerance and resistance traits during seedling development and overall seedling defences as compared with adult plants, in general, constitutes a significant research need that can greatly improve our understanding of overall investment in defences during plant ontogeny.

Methods

Using two seedling and two juvenile stages of the perennial herb Penstemon virgatus (Plantaginaceae) evaluations were made of (a) patterns of investment in constitutive chemical defences [i.e. iridoid glycosides (IGs)], and (b) simultaneous variation in the short-term ability of seedling and juvenile stages to induce resistance traits, measured as induced chemical defences, or tolerance traits, measured as compensatory re-growth following moderate levels of damage by a specialist insect herbivore.

Key Results

Plants were highly defended during most of their transition from seedling to early juvenile stages, reaching a constant approx. 20 % dry weight total IGs. Furthermore, following 30 % above-ground tissue damage, seedlings and juvenile stages were equally able to induce resistance, by raising their IG concentration by approx. 8 %, whereas compensatory re-growth was only achieved at young juvenile but not seedling stages.

Conclusions

Two major trends emerged from this study: (1) in contrast to expected and previously observed trends, in this perennial plant species, seedlings seem to be one of the most well-defended stages as compared with adult ones; (2) high levels of constitutive defences did not limit the ability of young developmental stages to induce resistance following damage, although this response may come with a cost (i.e. decreased compensation) in young seedling stages. Hence, as has been previously demonstrated in few other systems, these results points towards an indirect evidence for a trade-off between tolerance and resistance traits at some, but not all, developmental stages; making them often difficult to detect.     

Lymphocyte recirculation and homing: roles of adhesion molecules and chemoattractants

Lymphocyte migration from high endothelial venules into lymphoid organs is mediated by a sequence of interactions between cell adhesion molecules on lymphocytes and those on the vascular endothelial cells that line the vessels. recent studies suggest that the so-called lymphocyte homing receptors and vascular addressins regulate the first stages of this process, that of binding of lymphocytes from flowing blood. The subsequent crawling of lymphocytes over the endothelial cell surface and migration across the vessel wall (diapedesis) are regulated independently of initial binding. These latter stages are thought to be mediated by functional activation of integrins on the lymphocyte by chemoattractants located in the vessel wall.     

Il-2-regulated expression of Na+,K(+)-ATPase in activated human lymphocytes

Expression of Na+,K(+)-ATPase alfal-subunit and of oubain-sensitive rubidium influxes has been investigated in human peripheral blood lymphocytes. Isolated lymphocytes were stimulated by phytogemagglutinin (PHA) or interleukin-2 (IL-2). It has been shown that during the early stage of the PHA-activation the alfal-subunit abundance in the membrane fractions of the human blood lymphocytes does not change, whereas at the late stages of Go-->G1-->S transition (16-48 h) the alfa1 protein content increases. A translation inhibitor cycloheximide was found to prevent the late increase in alfa1-subunit expression. An immunosuppressant cyclosporin A decreases both IL-2-dependent T-lymphocyte progression and alfa1-subunit abundance by 48 h of PHA-induced lymphocyte activation. In the lymphocytes pretreated by PHA in submitogenic concentration (0.8-1.0 microg/ml) exogenous IL-2 (100 U/ml) induces a proliferative response as well as alfal-protein accumulation. A decrease in alfa1-protein accumulation in the presence of specific inhibitors of separate signal transduction pathways enables us to conclude that protein kinases ERK1/2 (MAPK pathway) and JAK3 (JAK-STAT pathway) mediate the IL-2-dependent regulation of Na+,K(+)-ATPase expression during lymphocyte transition from resting stage to proliferation. A correlation between changes in ouabain-sensitive rubidium influxes and the alfal-subunit amount has been demonstrated. It is concluded that IL-2-dependent-progression of normal human lymphocytes from quiescence to proliferation is accompanied by the increase in Na+,K(+)-ATPase alfa1-subunits expression, and the enhanced transport activity of a sodium pump during the prereplicative stage is provided by the increased number of functional pump units in plasma membrane.     

Autologous mixed lymphocyte reaction in lymphoid malignancies. Lack of correlation with disease activity or clinical remission

Summary The proliferative response of T-enriched lymphocytes to autologous antigenic determinants present in cell populations depleted of T lymphocytes (autologous mixed lymphocyte reaction) was investigated in patients with chronic lymphocytic leukemia at different clinical stages and during clinical remission and in patients with hairy cell leukemia and patients with malignant lymphoma in long-term remission (median 35.5 months). An absence of autologous reactivity was found independently of the tumor burden, and no restitution of the autologous response was observed in patients in clinical remission. The response to phytohemagglutinin and to irradiated allogeneic T-depleted lymphocytes from normal individuals was found to be preserved in all patients, but lower than in healthy subjects. These observations suggest a defect of either the responder or stimulator population or a defect in the mechanism(s) regulating the autologous response. The possible pathogenic role of the AMLR in malignant lymphoproliferative disorders is discussed.     

The distribution of adenosine deaminase among lymphocyte populations in the rat.

Adenosine deaminase (ADA) activity was determined in young rat lymphocyte populations. The ADA-specific activity (per 10(8) cells and per milligram protein) was 3- to 10-fold higher in thymocytes than in lymphocytes from thoracic duct, lymph node, spleen, and bone marrow. The high ADA activity in thymocytes appeared to be preferentially associated with cortical thymocytes. Enrichment or depletion of cortical thymocytes by density gradient centrifugation, cortisone treatment, or selective lysis with anti-Thy-1 plus complement resulted in parallel increases or decreases in ADA levles. These results also suggested that medullary thymocytes have ADA levels similar to those of peripheral lymphocytes. "Immature" cortical thymocytes and thymocyte progenitors appeared to have low ADA activity; low enzyme levels were found in fetal thymus at 16 days of embryonic life, in the early phases of thymus regeneration, and in a "null" cell population isolated from bone marrow. This study demonstrates that ADA activity varies markedly during T lymphocyte differentiation and suggests that fundamental differences in nucleotide metabolism may exist in T cells at different stages of development.     

Histones-Mediated Lymphocyte Apoptosis during Sepsis Is Dependent on p38 Phosphorylation and Mitochondrial Permeability Transition

Lymphocyte apoptosis is one reason for immunoparalysis seen in sepsis, although the triggers are unknown. We hypothesized that molecules in plasma, which are up-regulated during sepsis, may be responsible for this. In this study, peripheral lymphocyte apoptosis caused by extracellular histones was confirmed both in mouse and human primary lymphocytes, in which histones induced lymphocyte apoptosis dose-dependently and time-dependently. To identify which intracellular signal pathways were activated, phosphorylation of various mitogen-activated protein kinases (MAPKs) were evaluated during this process, and p38 inhibitor (SB203580) was used to confirm the role of p38 in lymphocyte apoptosis induced by histones. To investigate the mitochondrial injury during these processes, we analyzed Bcl2 degradation and Rhodamine 123 to assess mitochondrial-membrane stability, via cyclosporin A as an inhibitor for mitochondrial permeability transition (MPT). Then, caspase 3 activation was also checked by western-blotting. We found that p38 phosphorylation, mitochondrial injury and caspase 3 activation occurred dose-dependently in histones-mediated lymphocyte apoptosis. We also observed that p38 inhibitor SB203580 decreased lymphocyte apoptotic ratio by 49% (P<0.05), and inhibition of MPT protected lymphocytes from apoptosis. Furthermore, to investigate whether histones are responsible for lymphocyte apoptosis, various concentrations of histone H4 neutralization antibodies were co-cultured with human primary lymphocytes and plasma from cecal ligation and puncture (CLP) mice or sham mice. The results showed that H4 neutralization antibody dose-dependently blocked lymphocyte apoptosis caused by septic plasma in vitro. These data demonstrate for the first time that extracellular histones, especially H4, play a vital role in lymphocyte apoptosis during sepsis which is dependent on p38 phosphorylation and mitochondrial permeability transition. Neutralizing H4 can inhibit lymphocyte apoptosis, indicating that it could be a potential target in clinical interventions for sepsis associated immunoparalysis.     

Heterogeneous cytokine production by acutely stimulated bronchoalveolar T lymphocytes in reovirus 1/Lang-infected mice

While the in vitro properties of CD4(+) and CD8(+) cytokine-producing lymphocytes have been well studied, the in vivo cytokine production patterns and relative roles of CD4(+) and CD8(+) T lymphocytes during a primary in vivo immune response remain unclear. In this study, mice were inoculated intranasally with reovirus 1/L, and respiratory T lymphocyte populations were analyzed using multicolor flow cytometric analysis for the production of cytokine within and between classical type 1/type 2 patterns. Cytokine production observed in vivo following infection did not correlate with classical T cell cytokine expression patterns; instead, multiple types of lymphocyte populations that produced one of several possible cytokine combinations were present. Cytokine production by CD4(+) lymphocytes appears in the early and middle stages of the immune response, while CD8(+) lymphocytes produce more cytokine in the later stages. Early cytokine responses occurred predominantly in the whole lung and lung-associated lymph node populations. The complex patterns of cytokine expression seen in this study likely influence local cell-mediated immunity as well as the complex interaction of T cell subsets and the interaction of T cells with B cells which are necessary for the generation of cell-mediated and humoral immune responses required for effective broad-spectrum immunity.     

降钙素基因相关肽对小鼠肠道集合淋巴结T细胞及腹腔巨噬细胞功能的影响

本工作观察了降钙素基因相关肽（ＣＧＲＰ）对小鼠肠集合淋巴小结（ＰＰ结）Ｔ细胞和小鼠腹腔巨噬细胞功能的影响。结果表明：ＣＧＲＰ能明显抑制ＰＰ结Ｔ淋巴细胞的转化,并且这种作用与Ｔ细胞的分化增殖状态有明显关系。此外ＣＧＲＰ对腹腔巨噬细胞ＤＮＡ和蛋白质的合成也有明显的抑制作用。以上结果提示ＣＣＲＰ可能作为一种抑制型的神经内分泌免疫调节肽而对肠道免疫功能发挥着重要的调节作用。     

The processes of iron deposition in the common hornet (vespa affinis)

Among insects, only honeybees and bumblebees deposit iron biominerals intracellularly. Although hornet's behaviour is affected by the magnetic field and their abdomen has magnetic remanence, it is not known whether hornets (Vespa affinis) deposit iron biominerals and whether the process of iron deposition in hornets is the same as that of honeybees and bumblebees. Transmission electron microscopy and atomic emission spectroscopy were employed to study intracellular iron deposition in hornets. Iron deposition began on day 2 after eclosion. Primary iron-granules (IGs) are first formed in primary iron deposition vesicles (IDVs) by the aggregation of tiny dense particles. Primary IDVs are double membrane vesicles that seem to derive from endoplasmic reticulum (ER). Primary IGs enlarged continuously into IGs by the aggregation of tiny dense particles till day 5 after eclosion. Next, IGs and IDVs fused to enlarge on day 7. Between days 10 and 17 IGs enlarged continuously in size by the aggregation of tiny dense particles. The cloudy area beneath the inner membrane of IDVs plays an important role in the formation of the tiny dense particles. IGs became mature on day 25 and left a small space, about 10nm in width, between IGs and the outer membrane of IDVs. IDVs including IGs are randomly distributed within the cytoplasm of trophocytes beneath the cuticle of hornets. Elemental composition analysis indicates that IGs are mainly comprised of iron, phosphorus and minor amounts of calcium.     

Suppression of phytohemagglutinin-stimulated lymphocyte blastogenesis by ovine uterine milk protein

Two basic glycoproteins (UTM-P) with molecular weights of 57,000 and 59,000 were purified from ovine uterine milk collected on Days 125 and 130 of pregnancy. The UTM-P were evaluated for immunosuppressive activity in phytohemagglutinin (PHA)-treated, mixed lymphocyte (MLC) and resting lymphocyte (RLC) cultures. For PHA and RLC cultures, UTM-P (2.5 to 800 micrograms UTM-P/ml) were added to 1 X 10(6) lymphocytes and 0.8 micrograms of PHA (for PHA cultures only), while for the MLC, UTM-P (50 to 1600 micrograms UTM-P/ml) were added to 5 X 10(5) lymphocytes combined from each of two ewes. Following [3H] thymidine addition, cells were later harvested for determination of thymidine incorporation. Lymphocyte blastogenesis was suppressed by UTM-P in PHA (R2 = 0.32 to 0.92, P less than 0.01 to 0.001), MLC (R2 = 0.8, P less than 0.001) and RLC (R2 = 0.65, P les than 0.01) experiments. To determine reversibility, PHA-treated lymphocytes were incubated with UTM-P for 6, 12 or 24 h, then washed to remove surface UTM-P. Incubation was continued in the presence of PHA as with other experiments. Exposure of lymphocytes to UTM-P for 6 or 12 h did not result in suppression of blastogenesis, whereas exposure for 24 h was sufficient for suppression (P less than 0.01). In an additional experiment, UTM-P were added to PHA-treated cultures at 0, 6, 12 or 24 h. Suppression (P less than 0.01) of blastogenesis was observed for each time period. Immunosuppressive activity was not mediated by overall cytotoxicity and was not affected by routine handling and storage of UTM-P. Data from these experiments provide one explanation for tolerance of the conceptus allograft during defined stages of ovine pregnancy.     

CHANGES OF LYMPHOCYTE KINETICS IN THE NORMAL RAT, INDUCED BY THE LYMPHOCYTE MOBILIZING AGENT POLYMETHACRYLIC ACID

The changes in lymphocyte kinetics induced by the lymphocyte mobilizing agent polymethacrylic acid (PMAA) were studied in the normal rat. Quantitative data are presented concerning the degree of lymphocyte mobilization in the spleen and in various lymph nodes at different times after PMAA administration. Data were also obtained regarding the exact site of lymphocyte mobilization in the spleen. Evidence is given that PMAA mobilizes both T and B lymphocytes.
Furthermore, results are presented on the different routes along which mobilized lymphocytes reach the blood. It is concluded that lymphocytes mobilized from the various lymph nodes are transported to the peripheral blood mainly by way of the efferent lymphatics ('indirect' route) while lymphocytes mobilized from the spleen will enter the blood chiefly via the so-called 'direct' route.
The relevance of these data to lymphocyte kinetics is discussed in relation to the planning of effective irradiation schedules for extra-corporeal irradiation of the blood during induced lymphocyte mobilization.     

Cellular and humoral immunity factors as regulators of regenerative morphogenesis

The published and author's data concerning changes in the immune system during regeneration of various organs are summarized. During the first few hours after partial removal of organs possessing high regeneration capacity, lymphocytes stimulate proliferation of nonlymphoid cells of an organ identical to the operated one; the production of antibodies against thymus-dependent antigen also increases. At the following stages of regeneration, the lymphocytes suppress the cell proliferation and decrease the antigen production. The level of these changes correlates with the level of post operational deficiency of the organ being maximal after total removal of the organ. The functional properties of splenocytes at different stages of regeneration suggest that the high T-helper and T-suppressor activities correlate with stimulation and suppression of non-lymphoid cells proliferation respectively. Culture medium supernatant after cultivation of these lymphocytes also changes the proliferation of hepatocytes. The author considers the impairment of natural immune tolerance caused by deficiency of organ auto-antigens that normally suppress lymphocyte proliferation to be the cause of the changes in lymphocyte activity.     

Modulation of lymphocyte proliferation by macrophages and macrophages loaded with arachidonic acid

Arachidonic acid (AA) is incorporated and exported by macrophages. This fatty acid is also transferred from macrophages (Mphi) to lymphocytes (LY) in co-culture. This observation led us to investigate the effect of macrophages pre-loaded with AA on concanavalin A (Con A)-stimulated lymphocyte proliferation. The experiments were performed in co-culture. This condition reproduces the in vivo microenvironment in which the modulation of lymphocyte proliferation is dependent on the interaction with macrophages. Lymphocytes obtained from untreated rats or from intraperitoneally thioglycolate-injected rats (THIO-treated) were co-cultured with macrophages from the same rats. Firstly, macrophages were co-cultured for 48 h with Con A-stimulated lymphocytes in different proportions: 0.5, 1, 2.5, 5, 10, 20 and 30% of 5 x 10(5) lymphocytes per well. At 1% proportion, macrophages caused maximum stimulation of lymphocyte proliferation; a four- to five-fold increase, for cells from both thioglycolate-treated and untreated rats, respectively, whereas at 20% it caused maximum inhibition. In addition, 1 or 20% macrophages were pre-loaded with several AA concentrations during a period of 6 h and co-cultured with lymphocytes. At 180 microM AA and 1% macrophages, lymphocyte proliferation was inhibited (by 25%), whereas at 20% macrophages, proliferation was increased, by 25- and three-fold, respectively, for cells from untreated and THIO-treated rats. AA added directly to the medium reduced lymphocyte proliferation, also being toxic to these cells at 100 microM. No toxic effects of AA were observed on macrophages. Additional evidence suggests that nitric oxide production is involved in the modulation of lymphocyte proliferation by AA-pre-loaded macrophages. These findings support the proposition that AA can directly modulate lymphocyte proliferation and the interaction between macrophages and lymphocytes.     

Changes in localization of immune cells and cytokines in corpora lutea during luteolysis in murine ovaries

Immune cells, which constitute a significant cell mass in the corpora lutea (CLs), are considered to play critical roles in luteolysis, but the details are not fully understood. We histochemically investigated the changes in distribution and cell density of macrophages and T lymphocytes and in tumor necrosis factor (TNF)-alpha and interferon (IFN)-gamma, which can induce apoptosis in the luteal cells in murine CLs during luteal regression. No macrophages or T lymphocytes were observed in functionally healthy CLs. Abundant macrophages and increasing T lymphocytes were demonstrated in CLs at the functional regression stage (early stage of regression). At the structural regression stage (late stage of regression), abundant T lymphocytes but no macrophages were demonstrated in the CLs. A moderate amount of TNF-alpha was detected in all CLs at all stages. No IFN-gamma was detected in either healthy or early regressing CLs, but a large amount of IFN-gamma was detected at the late regression stage. Moreover, in cultured luteal cells, reactivity against Fas-ligand (FasL) was caused by pretreatment with TNF-alpha and IFN-gamma and apoptosis was induced by FasL treatment. These findings support the hypothesis that macrophages initiate T lymphocyte aggregation at the early stage of luteal regression, and then T lymphocytes induce apoptosis on luteal cells, which in turn develop sensitivity against FasL by TNF-alpha and IFN-gamma.     

Regulating the immune system via IL-15 transpresentation

Transpresentation has emerged as an important mechanism mediating IL-15 responses in a subset of lymphocytes during the steady state. In transpresentation, cell surface IL-15, bound to IL-15Rα is delivered to opposing lymphocytes during a cell-cell interaction. The events most dependent on IL-15 include the development and homeostasis of memory CD8 T cells, Natural Killer cells, invariant Natural Killer T cells, and intraepithelial lymphocytes. As lymphocyte development and homeostasis involve multiple steps and mechanisms, IL-15 transpresentation can have diverse roles throughout. Moreover, distinct stages of lymphocyte differentiation require IL-15 transpresented by different cells, which include both hematopoietic and non-hematopoietic cell types. Herein, we will describe the points where IL-15 transpresentation impacts these processes, the specific cells thought to drive IL-15 responses, as well as their role in the course of development and homeostasis.     

Macrophage-lymphocyte clusters in the immune response to soluble protein antigen in vitro: III. DNA synthesis of lymphocytes in clusters

The lymphocytes which engage in DNA synthesis during the in vitro immune response to PPD (purified protein derivative of tuberculin) were studied by scintillation counting and in autoradiographs prepared from cultures of macrophages and immune T-lymphocyte-enriched lymphocytes. The lymphocytes in these cultures were located in three compartments: lymphocytes in macrophage-lymphocyte clusters, lymphocytes attached to macrophages but not involved in clusters, and not macrophage-attached lymphocytes. One of the cluster cells, the central lymphocyte, which is attached directly to the macrophage, was identified as the only DNA-synthesizing lymphocyte in the cluster early in the culture period. In cultures extended beyond 20 hr the increase in percentage of DNA-synthesizing lymphocytes in the cluster and macrophage-attached compartments exceeded the increase in the compartment of not macrophage-attached lymphocytes. The total amount of radiolabeled thymidine incorporated into lymphocytes in a blast transformation assay was directly proportional to the number of macrophage-lymphocyte clusters produced by the same lymphocytes in a cluster assay.     

Regulation of immunoglobulin production in human peripheral bood leukocytes: cellular interactions.

The intercellular influences regulating immunoglobulin (Ig) synthesis by normal human peripheral blood leukocytes (PBL) were investigated in cells stimulated by pokeweed mitogen (PWM). This system was shown to be totally T lymphocyte dependent as purified B lymphocytes (less than or equal to 1% T lymphocytes) failed to make significant amounts of Ig. No evidence was obtained for an Ig class switch as all classes of Ig (IgM, IgG, IgA) were shown to be produced in increasing amounts over a 6-day time period. T lymphocytes demonstrated maximum helper effect when mixed with equal numbers of B cells. This helper effect was mediated through the dual mechanisms of increasing the number of B lymphocytes containing cytoplasmic Ig and by increasing the maturity of these B lymphocytes as demonstrated by an increasing Ig production per B lymphocyte. When present in higher numbers, T lymphocytes were also capable of suppressing Ig production. This T-mediated suppression was first evident as a decrease in the Ig produced per B lymphocyte (decreased maturity). With maximum T suppression Ig-containing B lymphocyte numbers were also diminished. T lymphocyte help was relatively independent of macrophages (phagocytic cells) and did not require DNA synthesis for expression. Both T help and suppression were shown to cross allogeneic barriers. Immature T lymphocytes (thymocytes) were incapable of mediating either activity. Normal human PBL contain T lymphocytes campable of mediating both T help and suppression and the Ig produced by PBL was shown to be the balance of these activities. This balance probably represent the participation of distinct T lymphocyte subpopulations analogous to the T helper (Ly 1+) and T suppressor (Ly 2+, 3+) populations in the mouse.     

A lymphotoxin-IFN-beta axis essential for lymphocyte survival revealed during cytomegalovirus infection

The importance of lymphotoxin (LT) betaR (LTbetaR) as a regulator of lymphoid organogenesis is well established, but its role in host defense has yet to be fully defined. In this study, we report that mice deficient in LTbetaR signaling were highly susceptible to infection with murine CMV (MCMV) and early during infection exhibited a catastrophic loss of T and B lymphocytes, although the majority of lymphocytes were themselves not directly infected. Moreover, bone marrow chimeras revealed that lymphocyte survival required LTalpha expression by hemopoietic cells, independent of developmental defects in lymphoid tissue, whereas LTbetaR expression by both stromal and hemopoietic cells was needed to prevent apoptosis. The induction of IFN-beta was also severely impaired in MCMV-infected LTalpha(-/-) mice, but immunotherapy with an agonist LTbetaR Ab restored IFN-beta levels, prevented lymphocyte death, and enhanced the survival of these mice. IFN-alphabetaR(-/-) mice were also found to exhibit profound lymphocyte death during MCMV infection, thus providing a potential mechanistic link between type 1 IFN induction and lymphocyte survival through a LTalphabeta-dependent pathway important for MCMV host defense.